Tannase is industrially important enzyme used in the production of gallic acid. Gallic acid possesses wide range of biological activities such as`antioxidant, antibacterial, and antivirus. This work aims to produce gallic acid from local fruit rind in Lombok enzimatically. The tested rind local fruit were juwet (Syzygium cumini), kepundung (Baccaurea racemosa Muell.Arg) and mangosteen (Garcinia mangostana). The result showed that tannase activity of 57.827 U/mg. Gallic acid concentration has increased with increase in amount of tannase and reaction time. Optimal gallic acid concentration was obtained at 1 % (v/v) tannase and 60 minutes of reaction time for kepundung rind. However, juwet and mangosteen rind produced optimal gallic acid at 1.2 % (v/v) tannase with the same of reaction time.

Anwar, Y.A.S., and Burhanuddin, 2012. Pengaruh Komposisi Media terhadap Aktivitas dan Karakter Enzim Tanin Asil Hidrolase dari Aspergillus niger. Jurnal Ilmu Kefarmasian Indonesia 10 (2), 87-92.

Anwar, Y.A.S., Hasim, and Artika, I.M., 2007. The Production of tannin acyl hydrolase from Aspegillus niger. Mikrobiologi Indonesia 1(2), 91–94.

Bakheet, M.S., Soltan, S., Gadalla, A., Haredy, H.H., and Shakoor, M.A., 2014. Antioxidants (vitamin E and gallic acid) as valuable protective factors against myocardial infarction. Basic Research Journal of Medicine and Clinical Sciences 11, 109–122.

Barcelo, J.M., Guieb, M., Ventura, A., Nacino, A., Pinasen, H., Viernes, L., Yodong, T., Estrada, B.L., Valdez, D., and Binwag, T., 2014. Antibacterial, prooxidative and genotoxic activities of gallic acid and its copper and iron complexes against Escherichia coli. Asian Pacific Journal of Multidisciplinary Research 2(6), 45–56.

Bhagat, S., Dongre, P., Bhagat, S., and Dikpati, A., 2015. Extraction and isolation of gallic acid from self-generated fermentation system of Terminalia chebula. Journal of Chemical and Pharmaceutical Research 7(4), 170–174.

Belur, P.D., and Pallabhanvi, B., 2011. Investigation on production of gallic acid from Terminalia chebula extract using cell associated tannase of Bacillus massiliensin. Bangkok: International conference of advances in biotechnology and pharmaceutical sciences (ICABPS).

Beniwal, V, Chhokar, V., Singh, N., Sharma, J., 2010. Optimization of process parameters for the production of tannase and gallic acid by Enterobacter cloacae MTCC 9125. Journal of American Science 6(8), 389–397.

Chia, Y.C., Rajbanshi, R., Calhoun, C., and Chiu, R.H., 2010. Anti-neoplastic effects of gallic acid a major component of toona sinensis leaf extract on oral squanous carcinoma cell. Molecules 15, 8377-8389.

Hagerman A.E., 2002. Tannin Chemistry. . diakses pada 9 Juli 2010.

Junaidi, E., and Anwar, Y.A.S., 2015. Produksi Asam Galat dari Limbah Buah Lokal di Pulau Lombok. Laporan penelitian tidak dipublikasi.

Kementerian Kesehatan. 2013. Peraturan Menteri Kesehatan Republik Indonesia. Jakarta: Kementerian Kesehatan Republik Indonesia.

Kompas Health. 2014. Bahan Baku Obat 95 persen masih diimport. , (diakses pada 22 April 2014).

Kawada, M., Ohno, Y., Ri, Y., Ikoma, T., Yuugetu, H., Asai, T., Watanabe, M., Yasuda, N., Akao, S., Takemura, G., Minatoguchi, S., Gotoh, K., Fujiwara, H., and Fukuda, K., 2001. Antitumor effect of gallic acid on LL-2 cancer cells transplanted in mice. Anticancer drugs, 12, 847-852.

Lokeswari, N., and Kumar, B.L., 2013. A novel biochemical method for production of an antibacterial drug trimethoprim from industrial wastes. International Journal of Pharmacy and Pharmaceutical Sciences 5(3), 651–653.

Lokeswari, N., and Raju, K.J., 2007. Tannase Production by Aspergillus Niger. E-Journal of Chemistry 4(2), 192-198.

Nelson D.L., and Cox M.M., 2008. Lehninger: Principles of Biochemistry edition 5. London: W.H. Freeman.

Nutan, Modi, M., Goel, T., Das, T., Malik, S., Suri, S., Rawat, A.K., Srivastava, S.K., Tuli, R., Malhotra, S., Gupta, S.K., 2013. Ellagic acid & gallic acid from Lagerstroemia speciosa L. inhibit HIV-1 infection through inhibition of HIV-1 protease & reverse transcriptase activity. Indian Journal of Medical Research 137(3):540-8.

Phansawan, B., and Pongsabangpho, S., 2014. Determination of Gallic Acid and Rutin in Extracts Cassia alata and Andrographis paniculata. Science Asia 40, 414–419.

Prasad, D., Gupta, R.K., Venkataratnam, G.S., Kamini, N.R., and Gowthaman, M.K., 2011. Utilization of Bahera fruits for production of tannase and gallic acid by Aspergillus heteromorphus MTCC 5466 and synthesis of propyl gallate Thereof. Global Journal of Biotechnology and Biochemistry Research 6(3), 119–128.

Seigler, D.S., 1998. Plant Secondary Metabolism. Massachusetts: Kluwer Academic Publishers.

Tachibana, H., Koga, K., Fujimura, Y., and Yamada, K., 2004. A receptor for green tea polyphenol EGCG. Nature structural and molecular biology 11, 380-381.

Vazirian, M., Khanavi, M., Amanzadeh, Y., and Hajimehdipoor, H., 2011. Quantification of gallic acid in fruits of three medicinal plants. Iranian journal of pharmaceutical research 10(2), 233-236.